Good morning everybody.
I would like to know if anybody is aware of nontrivial results of the following form : if a family $\mathcal I$ of subsets of $\mathbb N$ satisfies such and such assumption, then one may conclude that $\mathbb N$ can be partitioned into finitely many sets from $\mathcal I$.
This is of course quite vague, but the general idea should be clear.
Thanks in advance.
Let $\lambda$ denote the uniform measure on the powerset of $\mathbb N$ (also known as the Lebesgue measure and the fair-coin measure). Let $\tau$ be the product topology of the discrete topology on $\{0,1\}$.
In order to be able to conclude that $\mathbb N$ can be partitioned into finitely many sets from $\mathcal I$ (in fact, two),
These observations are sharp, as the example $\mathcal I:=\{X: 17\in X\}$ shows: it is not sufficient that $\mathcal I $ be nonmeager, nor that $\mathcal I $ be of Lebesgue measure $\ge 1/2$, because it is necessary that $$ \bigcup\mathcal I = \mathbb N. $$
